PL149410B2 - System for producing thick mixture of furnace wastes with water,in particular of flying ash and furnace slag from a power plant - Google Patents

Abstract

A system for making a thick mixture of furnace waste. The system comprises a flow mixer to which isconnected a fly-ash feeder provided with a fly-ash stream flow rate regulator and to which is connected a water source provided with an output regulator. A mixer is connected via an overflow conduit to a mixture retention tank equipped with a suspension volume gauge. A slag feeder is also provided above the retention tank to feed slag and other solid waste. A pump and a mixture drain pipeline is connected to the tank. Between the fly-ash feeder and the flow mixer there is connected a fly-ash stream mass flow rate meter which is also connected to the fly-ash stream flow rate regulator of the fly-ash feeder. A mixture volume gauge is connected to the fly-ash stream flow rate regulator. A mixture level gauge, preferably a limit level gauge, is connected to the tank.

Description

POLAND

REPUBLIC

FOLK

PATENT DESCRIPTION OF THE TEMPORARY PATENT

149 4ίθ

Provisional patent additional to the patent No.- Filed: 87 01 05 (P. 263566)

Int. Cl. ⁴ B65G 53/30

PRIORITY-OFFICE

PATENT

PRL

Application announced: 88 02 18

Patent document published: 1990 06 30

READING ROOM

Patent Office 11111¾¼ * (mmm)

Creators of the invention: Jerzy Rokita, Jerzy Kmiecik, Zdzisław Szymoniak,

Leszek Skrzypek, Sławomir Tomaszewski, Władysław Wilgusiewicz

Authorized by a temporary patent: Southern Energy District,

Katowice (Poland)

System for the production of a dense mixture of furnace waste with water, especially fly ash and energy slag with water

The subject of the invention is a system for the production of a dense mixture of furnace waste with water, in particular fly ash and energy slag with water.

Polish patent specification No. 134265 describes a system of devices for producing a fly ash suspension in water, which includes an ash retention tank, an ash feeder, a batch water dispenser, a mixer and a suspension retention tank, connected by gravity. This description also specifies certain design features of the mixer.

Polish patent specification No. 128 713 describes a similar system, which further comprises a batch weight dispenser for slags and waste connected to a solid waste feeder.

From the application of the inventive project No. P-252075 published in the Bulletin of the Patent Office No. 17 of 1986, a system of devices for discharge of fly ash to the destination is known. The system according to this application comprises a dry fly ash container connected through an ash feeder equipped with an ash stream regulator with a mixing device, to which a water source equipped with a volumetric capacity adjuster is also connected, while the mixing device is connected overflow with a suspension retention tank equipped with a level sensor. the suspension is connected to the ash flow rate regulator, and the slurry retention tank is connected to the suspension pump and further through the discharge pipeline to its destination. The system may include a slurry volumetric flow sensor connected to a water source volumetric flow adjuster. The device for loosening the thickened ash under its own weight can be placed in the ash reservoir.

The known systems have significant drawbacks. The main disadvantage of the system known from patent description No. 13-4265 'is the necessity to use batch fly ash weight feeders and batch water feeders, which causes complexity of the system and extends it vertically. Another disadvantage is the inevitable failure of the devices that start and shut off the flows of ash and water streams and discharge the slurry, caused by a large number of actuations. All in all, the system is complicated, costly to invest and causes complex operational problems.

149 410

The system known from patent specification No. 128 713 has the same drawbacks, and an additional drawback is the need to use a batch weight dispenser for slags and other volatile waste. The disadvantage of the system known from the application No. P-252 075 is, first of all, the inability to maintain the desired volume composition of the ash-water carrier suspension in the case of the necessity to introduce slags and other solid waste into the suspension retention tank and to discharge them together with the suspension. Then the fly ash suspension in water could have a constant volumetric composition only while maintaining a constant volumetric flow rate of slags and other solid waste, which is extremely difficult in practice. In turn, any random changes in the volumetric intensity of this stream will cause the composition of the ash-water suspension to change over time (both by volume and by weight), with all consequent negative consequences. Another disadvantage of this system is that it is difficult to measure (and then maintain consistency) the level of the slurry in the retention reservoir due to the undulating surface caused by mixing. These difficulties will be greatly exacerbated when slag is introduced into the retention reservoir, as then mixing must become more intense.

The object of the invention is to provide a system for producing a dense mixture of ashes and slags with water, which would overcome most of these drawbacks, while the remaining ones were largely limited.

The system according to the invention comprises a flow mixer to which a fly ash feeder equipped with an ash stream regulator is connected and to which a water source equipped with a capacity regulator is connected, and the mixer is connected overflow to a mixture retention tank equipped with a mixture quantity sensor, and the mixture tank it is connected to the pump and then to the discharge pipe. Between the fly ash feeder and the mixer, there is an ash mass flow meter connected to the ash flow rate regulator. The mixture quantity sensor provided with the retention tank is connected to the water source efficiency regulator, which in turn is connected to the ash flow regulator. As a mixture amount sensor, a mixture level sensor, in particular a limit state level sensor or a mixture weight sensor, can be used. Above the retention reservoir there may be a feeder for energy slags and other solid waste. It is preferably equipped with a limiter for the intensity of the stream of slags and other waste.

The system according to the invention makes it possible to produce, in a continuous process, a dense suspension of fly ash in water with a constant mass concentration of fly ash in the suspension (understood as the ratio of the mass of fly ash in a certain portion of the suspension to the mass of this portion of suspension). Maintaining a constant mass concentration of the suspension is a particularly important requirement when it is intended to take advantage of the self-solidification capacity of the suspension. The physical properties of the resulting solid, such as compressive strength, filtration coefficient and solidification time, depend on the mass fraction of fly ash in the suspension. However, they are not guaranteed in the case of a constant volumetric fraction of fly ash in the suspension, because due to changes in fly ash density (caused e.g. by the existence of empty pores and caverns in the ash grains) their mass fraction may vary within quite wide limits. The consistency of the mass composition produced by the suspension system is not changed by the introduction of slags and other solid waste into the suspension. The combination of the water source efficiency regulator with the ash stream intensity regulator enables the maintenance of a constant mass composition of the ash-water suspension. The combination of the mixture level sensor in the retention tank with the water source efficiency regulator enables the mixture level in the retention tank to be maintained between the upper and lower permissible states. The system is particularly simplified when a sensor or sensors for the permissible levels of the mixture mirror are used as the mixture amount sensor in the tank. Then it is not necessary to adjust the volumetric intensity of water and fly ash streams, as well as the slags to the volumetric efficiency of the pump, the volume balance of these streams does not have to close. When the sum of the volumetric intensities of water jets, fly ash and slag supplied to the system exceeds the volumetric efficiency of the pump, the mixture level will increase in the retention tank until the upper allowable position is reached. Then the intensity of the water supplied to the system will decrease, and thus the sum of the volumetric intensities of the water jets of fly ash and slag will be lower than the volumetric capacity of the pump and the level of the mixture in the retention tank will drop until the lower allowable position is reached.

The stability of the mass composition of the produced fly ash suspension in water is not dependent on the intensity of the slag stream. However, slags and other solid wastes are coarse-grained fractions and their proportion in the mixed mixture with the suspension cannot be too high. Therefore, the slag feeder should be equipped with a limiter for the stream of slags and other solid waste.

The main advantage of the system according to the invention is the possibility of producing in a continuous process a suspension of fly ash with water with a constant weight ratio of fly ash to water, and the composition of the suspension is not disturbed by the introduction of slags. Another advantage of the system is that it is not susceptible to error in determining the mirror position of the mixture in the mixture retention tank caused by undulations in the mixture surface. In the system according to the invention, the error caused by undulations has been eliminated, because as a result of undulations, the moment of operation of the water jet intensity regulator may only be accelerated or delayed, but it will not change the mass composition of the ash-water suspension produced. A further advantage of the system is its simplicity and the use of devices that are known and proven in operation.

The system according to the invention can be used in power plants, combined heat and power plants and heating plants, where the furnace waste is discharged in the form of a thick suspension or a mixture with water.

The system according to the invention is shown in an exemplary embodiment in the drawing which shows a diagram of the system.

Under the fly ash container 1 there is a fly ash feeder 2 with its own electric motor 3 equipped with a rotational speed regulator 4, which acts as a regulator of the ash stream intensity. Below, there is the ash mass flow meter 5. The water pipeline 6 with the valve 7 and the water flow rate regulator 8, as well as the ash flow meter 5 are connected to a mixer 9 overflow connected to the mixture retention tank 10, to which the pump 11 and the pipeline 12 discharging the mixture to the destination are connected. A slag and other solid waste feeder 14, connected to a slag and other waste container 15, is located above the separated screen partition 13 in the part of the retention tank 10 from the side inlet to the pump 11. The mixture retention tank 10 is equipped with a mixture level sensor 16 which is connected to the water flow rate regulator 8. The regulator 8 is connected to the ash stream intensity regulator 5, to which the ash mass flow intensity meter 2 is also coupled. A mixture flow meter 17 and a mixture density meter 18 are installed on the discharge line 12.

The preparation of a mixture of fly ash and slags with water is carried out in this example as follows.

The feeder 2 introduces dry fly ash into the mixer 9, where it is mixed with the water supplied through the pipeline 6, and the resulting slurry flows into the retention tank 10. The feeder 14 introduces power slags in an approximately constant stream into the retention tank 10. The slurry mixture of slags and other solid waste pump 11 is pumped to the storage pipe 12, a flowmeter 17 and the measured volumetric flow rate of the mixture is Q = 6 m ³ / min, including about 0.5 m ³ / minute of the volumetric flow rate of the slag and other solid waste. The fly ash flow rate regulator 4 was set so that the mass flow rate of ashes expressed in kg / s was 2 times higher than the volumetric flow rate of water expressed in 1 / s, which corresponds to the weight ratio of ash to water in the suspension equal to 2 kg of ashes / 1 kg of water. The density of fly ash is φ = 2400 kg / m ³ and the density of the produced slurry is suitably φ - 1636.4 kg / m ^3. The volume balance of the fly ash and water streams supplied to the mixing device and the slag stream fed to the retention tank would close in relation to the pump capacity if the setting of the water inlet rate controller was 3 m3 / min, which would correspond to an ash stream of 6 tons / min or by volume 2.5 m3 / min. However, control flow of water through 8 nasta4 149 410 lays on the value of 2.8 m ³ / min and 3.8 m ³ / min, which corresponds to the intensity of the stream of ashes respectively of at 56ton / min and 7,6ton / min or volume 2,33m3 / min and 3.16 m3 / min. When the water inflow rate is 2.8 m3 / min, the level in the tank 10 drops and in the lower limit position the measurement sensor 16 will activate the regulators 8 and 4. Then the intensity of the supplied water and ash streams will increase (to the total volume value of 6.96 m3 / min) and the level of the mixture starts to rise. When it reaches the upper limit state, the sensor 16 will activate the regulators 8 and 4. The intensity of the supplied ash and water streams will decrease (to the total volume value of 5.13 m3 / min) and the level of the mixture will start to decrease. The reduction or complete cessation of the introduction of slags will not change the nature of the installation, only the length of the working periods changes, in the phase of the mixture level falling - the operation period will be shortened, and in the phase of rising mixture level - the operation period will be extended. The mixture in the tank 10 is intensively mixed at all times.

Claims (2)

Patent claims 1. System for the production of a dense mixture of furnace waste with water, comprising a flow mixer to which a fly ash feeder is connected, provided with an ash intensity regulator, and to which a water source provided with a volumetric efficiency controller is connected, and the mixer is connected overflow with the mixture retention tank equipped with a mixture level sensor, while a pump and then a discharge pipeline are connected to the mixture retention tank, characterized in that between the ash feeder (2) and the mixer (9) there is an ash mass flow meter (5) connected to the regulator (4) ash flow rate, to which is also connected the volume capacity regulator (8) of the water source, the regulator (8) being connected to the mixture level sensor (16) in the retention tank (10). 2. The system according to claim A slag and solid waste feeder (14) provided above the retention reservoir (10) with a flow rate limiter Printing House of the Polish Patent Office. Circulation 100 copies Price 1500 PLN